Tracking local radiocarbon releases from nuclear power plants in southern Ontario (Canada) using annually-dated tree-ring records

Abstract

Understanding the radiocarbon ( 14 C) content of atmospheric carbon dioxide (CO 2 ) underlies many fields of research. This study shows how one can track the influence of nuclear power plants at the local and regional scale in Canada’s largest urban area. This area is subject to significant 14 CO 2 depletion due to CO 2 emissions from fossil fuel burning. Tree cores collected across southern Ontario in 2018 show that tree-rings dated annually record the same decadal trends as atmospheric measurements at a background site. Tree cores taken closer to 14 CO 2 or fossil fuel sources reflect those local influences. Data of 14 C from a site 20 kilometer downwind from a nuclear power plant is highly correlated (R 2 =0.76) with annually reported emissions from the plant for 2009-2018. Extending the analysis back to the 1990s shows that the emissions of 14 CO 2 were 4-8 times higher than those at present. At that time, 14 CO 2 emissions were sufficiently strong to affect a remote background monitoring site. Concerning the urban fossil fuel CO 2 emission signature, 14 CO 2 in the cellulose of a tree from downtown Toronto has an extremely depleted Δ 14 C signature. The local signal from traffic emissions overshadows any 14 CO 2 from nuclear emissions in the region. This study suggests that, with more cores to reflect the emissions of nuclear 14 CO 2 before 1990 and more suitable urban sampling locations (i.e., representative of a neighborhood rather than one road), this approach has potential to better track the long-term impact of urbanization and nuclear power plants in Canada, and potentially elsewhere around the globe.