Air Synthesis Review; Polycyclic Aromatic Compounds in the Oil Sands Region

This air synthesis review presents the current state of knowledge on the sources, fates, and effects for polycyclic aromatic compounds (PACs) and related chemicals released to air in the oil sands region (OSR) in Alberta, Canada. Through the implementation of the Joint Canada–Alberta Oil Sands Monitoring Program in 2012 a vast amount of new information on PACs has been acquired through directed monitoring and research projects and reported to the scientific community and public. This new knowledge addresses questions related to cumulative effects and informs the sustainable management of the oil sands resource while helping to identify gaps in understanding and priorities for future work. As a result of this air synthesis review on PACs, the following topics have been identified as new science priorities: (i) improving emissions reporting to better account for fugitive mining emissions of PACs that includes a broader range of PACs beyond the conventional polycyclic aromatic hydrocarbons (PAHs) including, inter alia, alkylated-PAHs (alk-PAHs), dibenzothiophene (DBT), alk-DBTs, nitro-PAHs, oxy-PAHs including quinones and thia- and aza-arenes; (ii) improving information on the ambient concentrations, long-range transport, and atmospheric deposition of these broader classes of PACs and their release (with co-contaminants) from different types of mining activities; (iii) further optimizing electricity-free and cost-effective approaches for assessing PAC deposition (e.g., snow sampling, lichens, passive ambient sampling) spatially across the OSR and downwind regions; (iv) designing projects that integrate monitoring efforts with source attribution models and ecosystem health studies to improve understanding of sources, receptors, and effects; (v) further optimizing natural deposition archives (e.g., sediment, peat, tree rings) and advanced forensic techniques (e.g., isotope analysis, marker compounds) to provide better understanding of sources of PACs in the OSR over space and time; (vi) conducting process research to improve model capabilities for simulating atmospheric chemistry of PACs and assessing exposure to wildlife and humans; and (vii) developing tools and integrated strategies for assessing cumulative risk to wildlife and humans by accounting for the toxicity of the mixture of chemicals in air rather than on a single compound basis.

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Short Name of Publication https://cdnsciencepub.com/doi/full/10.1139/er-2018-0039#.W6PzM_lRdhG
Deliverable Type Science Article
Program Catagory Atmospheric
Program Type OSM
Author Tom Harner, Cassandra Rauert, Derek Muir, Jasmin Schuster, Yu-Mei Hsu, Leiming Zhang, George Marson, John G. Watson, Jason Ahad, Sunny Cho, Narumol Jariyasopit, Jane Kirk, Jennifer Korosi, Matthew Landis, Jonathan Martin, Yifeng Zhang, Kim Fernie, Gregory R. Wentworth, Andrzej Wnorowski, Ewa Dabek, Jean-Pierre Charland4, Bruce Pauli, Frank Wania, Elisabeth Galarneau, Irene Cheng, Paul Makar, Cynthia Whaley, Judith C. Chow, Xiaoliang Wang
Periodical Title Environmental Reviews
Year of Publication 2018
Publishing Organization
Month of Publication 8
Periodical Volumes 26(4)
Page Range 430-468
Digital Object Identifier (DOI) 10.1139/er-2018-0039
Online ISBN/ISSN 1208-6053
Print ISBN/ISSN 1181-8700
Recomended Citation Harner, T., Rauert, C., Muir, D., Schuster, J. K., Hsu, Y.-M., Zhang, L., … Wang, X. (2018). Air synthesis review: polycyclic aromatic compounds in the oil sands region. Environmental Reviews, 26(4), 430–468. doi:10.1139/er-2018-0039
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