posted on 2019-07-22, 15:37authored byYamini Gopalapillai, Jane L. Kirk, Matthew S. Landis, Derek C. G. Muir, Colin A. Cooke, Amber Gleason, Allie Ho, Erin Kelly, David Schindler, Xiaowa Wang, Greg Lawson
The
extraction and upgrading of bitumen have been identified as
sources of enhanced atmospheric deposition of pollutant elements to
ecosystems in the Athabasca Oil Sands Region (AOSR) in northern Alberta,
Canada. Bitumen extraction became increasingly efficient, and oil
prices surged in the 1990s, resulting in rapid expansion and increased
production over the last two decades. Here, we examine temporal and
spatial trends in wintertime atmospheric deposition of pollutant elements
in 1978, 1981, 2008, and 2011–2016 at broad spatial scales
using snowpack measurements. A hybrid source analysis was conducted,
including (i) simple and multiple linear regression (MLR) of identified
source locations and elemental deposition, (ii) spatially resolved
aluminum enrichment factors (Al EFs), and (iii) positive matrix factorization
(PMF) to determine source profiles. Temporal trends revealed a general
decrease in atmospheric loadings; however, near-field V, Ti, and Al
loadings in 2016 were an order of magnitude greater than at reference
sites in the Peace Athabasca Delta. MLRs demonstrated that the two
largest bitumen producers were major contributors of key pollutant
elements (e.g., V, Al, Ti, W, Ga, Fe, Be, Cs, Co, Mo, Rb, Pb, As,
U, and Ba) including rare earth elements (Y, Ce, and La). Using Al
EFs, fugitive (geogenic) dust was identified as the main contributor
for most elements, except for V and W, which were directly introduced
by industrial sources. Results strongly suggest that fugitive dusts
from petcoke piles and roads are important wintertime pollution vectors
in the AOSR.