Petroleum coke and soft tailings sediment in constructed wetlands may contribute to the uptake of trace metals by algae and aquatic invertebrates

The fate of trace metals in pore water collected from wetland sediments and organisms exposed to petroleum coke were evaluated within in situ aquatic microcosms. Oil sands operators of Fort McMurray, Alberta, Canada produced 60 million tonnes of petroleum coke by 2008, containing elevated concentrat...

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Bibliographic Details
Published in:The Science of the total environment 2012-01, Vol.414, p.177-186
Main Authors: Baker, Leanne F., Ciborowski, Jan J.H., MacKinnon, Michael D.
Format: Article
Language:English
Subjects:
Alberta
Animals
Athabasca oil sands
Chara
Chara - metabolism
Computer Simulation
Constructed wetland
Environmental Pollutants - analysis
Environmental Pollutants - pharmacokinetics
Extraction and Processing Industry
Groundwater - chemistry
Insecta - metabolism
Invertebrata
Invertebrates
Likelihood Functions
Mass Spectrometry
Metals, Heavy - analysis
Metals, Heavy - pharmacokinetics
Microcosm
Multivariate Analysis
Nickel
Odonata
Petroleum - analysis
Petroleum coke
Reclamation
Sands
Sediments
Tailings
Trace metal
Trace metals
Waste Products - analysis
Wetlands
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Summary:The fate of trace metals in pore water collected from wetland sediments and organisms exposed to petroleum coke were evaluated within in situ aquatic microcosms. Oil sands operators of Fort McMurray, Alberta, Canada produced 60 million tonnes of petroleum coke by 2008, containing elevated concentrations of sulphur and several trace metals commonly seen in oil sands materials. This material may be included in the construction of reclaimed wetlands. Microcosms were filled with a surface layer of petroleum coke over mine-waste sediments and embedded in a constructed wetland for three years to determine how these materials would affect the metal concentrations in the sediment pore water, colonizing wetland plants and benthic invertebrates. Petroleum coke treatments produced significantly elevated levels of Ni. We also found unexpectedly higher concentrations of metals in “consolidated tailings” waste materials, potentially due to the use of oil sands-produced gypsum, and higher background concentration of elements in the sediment used in the controls. A trend of higher concentrations of V, Ni, La, and Y was present in the tissues of the colonizing macrophytic alga Chara spp. Aeshnid dragonflies may also be accumulating V. These results indicate that the trace metals present in some oil sands waste materials could be taken up by aquatic macro-algae and some wetland invertebrates if these materials are included in reclaimed wetlands. ► Petroleum coke in wetland reclamation in oil sands was studied with in situ microcosms. ► We examined resulting metal concentrations in pore water and biota. ► Pore water had higher Ni in coke treatment. ► Algae and invertebrates may be accumulating V, Ni from coke and consolidated tailings. ► Petroleum coke and consolidated tailings use in wetlands needs reconsideration.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2011.10.011