Atmospheric deposition of polycyclic aromatic hydrocarbons (PAHs) has increased in northern Alberta, Canada, due to industrial development in the Athabasca oil sands region (AOSR). However, the sources, summertime deposition fluxes and associated spatial patterns are poorly characterized, and the magnitude of contamination has not been directly contrasted with comparable measurements around large Canadian cities. PAHs were measured in Sphagnum moss collected from 30 bogs in the AOSR and compared with reference moss collected from various remote, rural and near-urban sites in Alberta and Ontario. At all 39 locations, strong correlations between depositional fluxes of PAHs and accumulation rates of ash (n = 117, r = 0.877, p < 0.001) implied that the main source of PAHs to moss was atmospheric deposition of particles. Average PAH concentrations at near-field AOSR sites (mean [SD], 62.4 [24.3] ng g-1) were significantly higher than at far-field AOSR sites (44.9 [20.8] ng g-1; p = 0.038) or the 7 reference sites in Alberta (20.6 [3.5] ng g-1; p < 0.001). In fact, average PAH concentrations across the entire AOSR (7,850 km2) were approximately twice as high as in London, ONT, or near petroleum upgrading and major traffic corridors in Edmonton, AB. A chemical mass balance model estimated that both delayed petcoke (33% of PAHs) and fine tailings (38% of PAHs) were the major sources of PAHs in the AOSR. Over the 2015 summer growing season, we estimate that 101 - 110 kg of PAHs (on 14,300 - 17,300 tonnes of PAH-containing dusts) were deposited to the AOSR within a 50 km radius of surface mining. Given that the highest PAH deposition was to the northern quadrant of the AOSR, which includes the First Nations community of Fort MacKay, further dust control measures should be considered to protect human and environmental health in the region.

Sources, Spatial-Distributions and Fluxes of PAH-Contaminated Dusts in the Athabasca Oil Sands Region

Zaccone, Claudio;
2023-01-01

Abstract

Atmospheric deposition of polycyclic aromatic hydrocarbons (PAHs) has increased in northern Alberta, Canada, due to industrial development in the Athabasca oil sands region (AOSR). However, the sources, summertime deposition fluxes and associated spatial patterns are poorly characterized, and the magnitude of contamination has not been directly contrasted with comparable measurements around large Canadian cities. PAHs were measured in Sphagnum moss collected from 30 bogs in the AOSR and compared with reference moss collected from various remote, rural and near-urban sites in Alberta and Ontario. At all 39 locations, strong correlations between depositional fluxes of PAHs and accumulation rates of ash (n = 117, r = 0.877, p < 0.001) implied that the main source of PAHs to moss was atmospheric deposition of particles. Average PAH concentrations at near-field AOSR sites (mean [SD], 62.4 [24.3] ng g-1) were significantly higher than at far-field AOSR sites (44.9 [20.8] ng g-1; p = 0.038) or the 7 reference sites in Alberta (20.6 [3.5] ng g-1; p < 0.001). In fact, average PAH concentrations across the entire AOSR (7,850 km2) were approximately twice as high as in London, ONT, or near petroleum upgrading and major traffic corridors in Edmonton, AB. A chemical mass balance model estimated that both delayed petcoke (33% of PAHs) and fine tailings (38% of PAHs) were the major sources of PAHs in the AOSR. Over the 2015 summer growing season, we estimate that 101 - 110 kg of PAHs (on 14,300 - 17,300 tonnes of PAH-containing dusts) were deposited to the AOSR within a 50 km radius of surface mining. Given that the highest PAH deposition was to the northern quadrant of the AOSR, which includes the First Nations community of Fort MacKay, further dust control measures should be considered to protect human and environmental health in the region.
2023
polycyclic aromatic hydrocarbons, Sphagnum moss, atmospheric deposition, chemical mass balance receptor model, fine tailings, petroleum coke
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11562/1114526
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